Polymer-Derived Ceramic Ambi-&-aerogels

Event Details
Date: 30.10.2024, 16:00 o'clock - 17:00 o'clock 
Location: Universität Augsburg, Am Technologiezentrum 8, 86159 Augsburg
Organizer(s): Institut für Materials Ressource Management
Topics: Physik und Materialwissenschaften, Informatik
Series of events: MRM-Seminar
Event Type: Vortrag
Speaker(s): Dr. Cekdar Vakif Ahmetoglu
Cekdar Vakif Ahmetoglu

Dr. Ahmetoglu presents a fascinating class of mixed ceramic-polymer materials uniquely suited as thermal protection systems in aerospace applications.


Das Institut für Materials Resource Management (MRM) lädt Sie ein zu einer spannenden Seminarreihe, die sich auf innovative Ansätze im Umgang mit Materialien, Ressourcen und High-Tech Anwendungen fokussiert.

Thema dieses Mal:
The first part of this presentation will focus on synthesizing and characterizing monolithic preceramic, hybrid, and ceramic aerogels using distinct drying techniques: ambient pressure (ambigels) and CO2 supercritical drying. While low-temperature processes were followed for polymeric ambi/aerogels, hybrid ceramers (CERAmic-polyMER) were processed between 600°C and 800°C, and the ceramic ones were by 1000°C pyrolysis. Even if different drying procedures were followed, the resulting ambigels and aerogels demonstrated akin structural features. It is indicated that substituting complex and costly supercritical drying with a more economical and straightforward ambient pressure drying method is feasible without compromising significant degradation of properties.
In the second part, foam-aerogel composites are designed to demonstrate the manufacturing feasibility of highly porous aerogel monoliths, which can even be machinable into a variety of forms while preserving their characteristics. This structural composite system was made via aerogel infiltration of the microcellular foams. Both aerogels and foam-aerogel composites were tested for separation purposes (oil/water) and thermal properties (flammability and insulation), the latter demonstrating that such a system can be utilized in different aerospace applications, including thermal protection systems in aerospace vehicles.

Nehmen Sie bei uns vor Ort im Hörsaal W-1019 teil oder klinken Sie sich aus der Ferne per Zoom in das Geschehen ein:
https://uni-augsburg.zoom-x.de/j/66559844352?pwd=FE2CcILkeIG2XQQ5hYr9N6wse5AY8d.1

More events: Institute of Materials Resource Management

  • November 2024
  • November 2024 / December 2024
    • 18
    • 19
    • 20
    • 21
    • 22
    • 23
    • 24
    • 25
    • 26
    • 27
    • 28
    • 29
    • 30
    • 01
  • December 2024
  • December 2024
  • December 2024 / January 2025
    • 30
    • 31
    • 01
    • 02
    • 03
    • 04
    • 05
    • 06
    • 07
    • 08
    • 09
    • 10
    • 11
    • 12
  • January 2025
  • January 2025 / February 2025
    • 27
    • 28
    • 29
    • 30
    • 31
    • 01
    • 02
    • 03
    • 04
    • 05
    • 06
    • 07
    • 08
    • 09
  • February 2025
    • 10
    • 11
    • 12
    • 13
    • 14
    • 15
    • 16
    • 17
    • 18
    • 19
    • 20
    • 21
    • 22
    • 23
  • February 2025 / March 2025
    • 24
    • 25
    • 26
    • 27
    • 28
    • 01
    • 02
    • 03
    • 04
    • 05
    • 06
    • 07
    • 08
    • 09
  • March 2025
    • 10
    • 11
    • 12
    • 13
    • 14
    • 15
    • 16
    • 17
    • 18
    • 19
    • 20
    • 21
    • 22
    • 23
  • March 2025 / April 2025
    • 24
    • 25
    • 26
    • 27
    • 28
    • 29
    • 30
    • 31
    • 01
    • 02
    • 03
    • 04
    • 05
    • 06
  • April 2025
    • 07
    • 08
    • 09
    • 10
    • 11
    • 12
    • 13
    • 14
    • 15
    • 16
    • 17
    • 18
    • 19
    • 20
  • April 2025 / May 2025
    • 21
    • 22
    • 23
    • 24
    • 25
    • 26
    • 27
    • 28
    • 29
    • 30
    • 01
    • 02
    • 03
    • 04
  • May 2025
    • 05
    • 06
    • 07
    • 08
    • 09
    • 10
    • 11
    • 12
    • 13
    • 14
    • 15
    • 16
    • 17
    • 18
  • May 2025 / June 2025
    • 19
    • 20
    • 21
    • 22
    • 23
    • 24
    • 25
    • 26
    • 27
    • 28
    • 29
    • 30
    • 31
    • 01
  • June 2025
    • 02
    • 03
    • 04
    • 05
    • 06
    • 07
    • 08
    • 09
    • 10
    • 11
    • 12
    • 13
    • 14
    • 15
  • June 2025
    • 16
    • 17
    • 18
    • 19
    • 20
    • 21
    • 22
    • 23
    • 24
    • 25
    • 26
    • 27
    • 28
    • 29
  • June 2025 / July 2025
    • 30
    • 01
    • 02
    • 03
    • 04
    • 05
    • 06
    • 07
    • 08
    • 09
    • 10
    • 11
    • 12
    • 13
  • July 2025
    • 14
    • 15
    • 16
    • 17
    • 18
    • 19
    • 20
    • 21
    • 22
    • 23
    • 24
    • 25
    • 26
    • 27
  • July 2025 / August 2025
    • 28
    • 29
    • 30
    • 31
    • 01
    • 02
    • 03
    • 04
    • 05
    • 06
    • 07
    • 08
    • 09
    • 10
  • August 2025
    • 11
    • 12
    • 13
    • 14
    • 15
    • 16
    • 17
    • 18
    • 19
    • 20
    • 21
    • 22
    • 23
    • 24
  • August 2025 / September 2025
    • 25
    • 26
    • 27
    • 28
    • 29
    • 30
    • 31
    • 01
    • 02
    • 03
    • 04
    • 05
    • 06
    • 07
  • September 2025
    • 08
    • 09
    • 10
    • 11
    • 12
    • 13
    • 14
    • 15
    • 16
    • 17
    • 18
    • 19
    • 20
    • 21
  • September 2025 / October 2025
    • 22
    • 23
    • 24
    • 25
    • 26
    • 27
    • 28
    • 29
    • 30
    • 01
    • 02
    • 03
    • 04
    • 05
  • October 2025
    • 06
    • 07
    • 08
    • 09
    • 10
    • 11
    • 12
    • 13
    • 14
    • 15
    • 16
    • 17
    • 18
    • 19
  • October 2025 / November 2025
    • 20
    • 21
    • 22
    • 23
    • 24
    • 25
    • 26
    • 27
    • 28
    • 29
    • 30
    • 31
    • 01
    • 02

Search